Abstract

Continuous noninvasive measurement of vital bio-signs, such as cardiopulmonary parameters, is an important tool in the evaluation process of the patient’s physiological condition and in the health monitoring of the patient. On the demand of new enabling technologies, some works have been done in continuous monitoring of blood pressure and pulse wave velocity. In this paper, we introduce further application of a novel technique for remote noncontact blood pulse wave velocity and pressure measurement based on tracking the temporal changes of reflected secondary speckle patterns produced in human skin when illuminated by a laser beam. The main goal of this work is to offer novel, simple and low cost measurement tool which will indicate changes in condition of the cardiovascular system after having an initial calibration.

© 2016 Optical Society of America

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References

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    [Crossref] [PubMed]
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    [Crossref] [PubMed]
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    [Crossref] [PubMed]
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    [Crossref] [PubMed]
  32. T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
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    [Crossref] [PubMed]

2015 (1)

T. Pereira, C. Correia, and J. Cardoso, “Novel Methods for Pulse Wave Velocity Measurement,” J. Med. Biol. Eng. 35(5), 555–565 (2015).
[Crossref] [PubMed]

2014 (2)

L. Peter, N. Noury, and M. Cerny, “A review of methods for non-invasive and continuous blood pressure monitoring: Pulse transit time method is promising?” IRBM 35(5), 271–282 (2014).
[Crossref]

V. Teplov, E. Nippolainen, A. A. Makarenko, R. Giniatullin, and A. A. Kamshilin, “Ambiguity of mapping the relative phase of blood pulsations,” Biomed. Opt. Express 5(9), 3123–3139 (2014).
[Crossref] [PubMed]

2011 (1)

2010 (1)

Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
[Crossref] [PubMed]

2009 (1)

2008 (3)

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
[Crossref] [PubMed]

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

2006 (1)

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
[Crossref] [PubMed]

2005 (2)

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

2003 (1)

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
[Crossref] [PubMed]

2002 (2)

J. P. Konhilas, T. C. Irving, and P. P. de Tombe, “Frank-Starling law of the heart and the cellular mechanisms of length-dependent activation,” Pflugers Arch. 445(3), 305–310 (2002).
[Crossref] [PubMed]

P. Lantelme, C. Mestre, M. Lievre, A. Gressard, and H. Milon, “Heart Rate: An Important Confounder of Pulse Wave Velocity Assessment,” Hypertension 39(6), 1083–1087 (2002).
[Crossref] [PubMed]

2001 (1)

R. P. Lifton, A. G Gharavi, and D. S Geller, “Molecular Mechanisms Review of Human Hypertension,” Cell 104(4), 545–556 (2001).
[Crossref] [PubMed]

2000 (1)

W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi, and T. Togawa, “Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration,” Med. Biol. Eng. Comput. 38(5), 569–574 (2000).
[Crossref] [PubMed]

1999 (4)

V. V. Tuchin, “Coherent optical techniques for the analysis of tissue structure and dynamics,” J. Biomed. Opt. 4(1), 106–124 (1999).
[Crossref] [PubMed]

J. Blacher, R. Asmar, S. Djane, G. M. London, and M. E. Safar, “Aortic Pulse Wave Velocity as a Marker of Cardiovascular Risk in Hypertensive Patients,” Hypertension 33(5), 1111–1117 (1999).
[Crossref] [PubMed]

G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
[Crossref] [PubMed]

E. D. Lehmann, “Clinical value of aortic pulse-wave velocity measurement,” Lancet 354(9178), 528–529 (1999).
[Crossref] [PubMed]

1995 (1)

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

1994 (2)

S. S. U. I’yanov, D. A. Zimnyakov, and V. V. Tuchin, “Fundamentals and applications of dynamic speckles induced by focused laser beam scattering,” Opt. Eng. 33(10), 3189–3210 (1994).
[Crossref]

A. C. Pearson, R. Guo, D. A. Orsinelli, P. F. Binkley, and T. J. Pasierski, “Transesophageal echocardiographic assessment of the effects of age, gender, and hypertension on thoracic aortic wall size, thickness, and stiffness,” Am. Heart J. 128(2), 344–351 (1994).
[Crossref] [PubMed]

1992 (1)

T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
[Crossref] [PubMed]

1990 (1)

B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
[Crossref] [PubMed]

1983 (1)

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
[Crossref] [PubMed]

1980 (1)

P. G. Agache, C. Monneur, J. L. Leveque, and J. De Rigal, “Mechanical properties and Young’s modulus of human skin in vivo,” Arch. Dermatol. Res. 269(3), 221–232 (1980).
[Crossref] [PubMed]

1976 (1)

B. Gribbin, A. Steptoe, and P. Sleight, “Pulse Wave Velocity as a Measure of Blood Pressure Change,” Psychophysiology 13(1), 86–90 (1976).
[Crossref] [PubMed]

1968 (1)

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Agache, P. G.

P. G. Agache, C. Monneur, J. L. Leveque, and J. De Rigal, “Mechanical properties and Young’s modulus of human skin in vivo,” Arch. Dermatol. Res. 269(3), 221–232 (1980).
[Crossref] [PubMed]

Appel, L. J.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

Arai, T.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
[Crossref] [PubMed]

Asayama, K.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

Asmar, R.

J. Blacher, R. Asmar, S. Djane, G. M. London, and M. E. Safar, “Aortic Pulse Wave Velocity as a Marker of Cardiovascular Risk in Hypertensive Patients,” Hypertension 33(5), 1111–1117 (1999).
[Crossref] [PubMed]

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

Bauer, D.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Beiderman, Y.

Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
[Crossref] [PubMed]

Z. Zalevsky, Y. Beiderman, I. Margalit, S. Gingold, M. Teicher, V. Mico, and J. Garcia, “Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern,” Opt. Express 17(24), 21566–21580 (2009).
[Crossref] [PubMed]

Benetos, A.

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

Bengtsson, H.

T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
[Crossref] [PubMed]

Bergqvist, D.

T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
[Crossref] [PubMed]

Bertinieri, G.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
[Crossref] [PubMed]

Binkley, P. F.

A. C. Pearson, R. Guo, D. A. Orsinelli, P. F. Binkley, and T. J. Pasierski, “Transesophageal echocardiographic assessment of the effects of age, gender, and hypertension on thoracic aortic wall size, thickness, and stiffness,” Am. Heart J. 128(2), 344–351 (1994).
[Crossref] [PubMed]

Blacher, J.

J. Blacher, R. Asmar, S. Djane, G. M. London, and M. E. Safar, “Aortic Pulse Wave Velocity as a Marker of Cardiovascular Risk in Hypertensive Patients,” Hypertension 33(5), 1111–1117 (1999).
[Crossref] [PubMed]

Boudreau, R. M.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Brisac, A. M.

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

Burshtein, N.

Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
[Crossref] [PubMed]

Cardoso, J.

T. Pereira, C. Correia, and J. Cardoso, “Novel Methods for Pulse Wave Velocity Measurement,” J. Med. Biol. Eng. 35(5), 555–565 (2015).
[Crossref] [PubMed]

Cerny, M.

L. Peter, N. Noury, and M. Cerny, “A review of methods for non-invasive and continuous blood pressure monitoring: Pulse transit time method is promising?” IRBM 35(5), 271–282 (2014).
[Crossref]

Chen, W.

W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi, and T. Togawa, “Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration,” Med. Biol. Eng. Comput. 38(5), 569–574 (2000).
[Crossref] [PubMed]

Chikamori, T.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
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Correia, C.

T. Pereira, C. Correia, and J. Cardoso, “Novel Methods for Pulse Wave Velocity Measurement,” J. Med. Biol. Eng. 35(5), 555–565 (2015).
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De Backer, G.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

De Bacquer, D.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

De Buyzere, M. L.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

De Rigal, J.

P. G. Agache, C. Monneur, J. L. Leveque, and J. De Rigal, “Mechanical properties and Young’s modulus of human skin in vivo,” Arch. Dermatol. Res. 269(3), 221–232 (1980).
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de Simone, G.

G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
[Crossref] [PubMed]

de Tombe, P. P.

J. P. Konhilas, T. C. Irving, and P. P. de Tombe, “Frank-Starling law of the heart and the cellular mechanisms of length-dependent activation,” Pflugers Arch. 445(3), 305–310 (2002).
[Crossref] [PubMed]

Devereux, R. B.

G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
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Djane, S.

J. Blacher, R. Asmar, S. Djane, G. M. London, and M. E. Safar, “Aortic Pulse Wave Velocity as a Marker of Cardiovascular Risk in Hypertensive Patients,” Hypertension 33(5), 1111–1117 (1999).
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Doba, N.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
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Falkner, B. E.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
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Ferrari, A.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
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Ferrucci, L.

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
[Crossref] [PubMed]

Fleg, J. L.

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
[Crossref] [PubMed]

Fortin, J.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
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Ganau, A.

G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
[Crossref] [PubMed]

Garcia, J.

Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
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Z. Zalevsky, Y. Beiderman, I. Margalit, S. Gingold, M. Teicher, V. Mico, and J. Garcia, “Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern,” Opt. Express 17(24), 21566–21580 (2009).
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Geller, D. S

R. P. Lifton, A. G Gharavi, and D. S Geller, “Molecular Mechanisms Review of Human Hypertension,” Cell 104(4), 545–556 (2001).
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Gharavi, A. G

R. P. Lifton, A. G Gharavi, and D. S Geller, “Molecular Mechanisms Review of Human Hypertension,” Cell 104(4), 545–556 (2001).
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Gillebert, T. C.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

Gingold, S.

Giniatullin, R.

Grassi, G.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
[Crossref] [PubMed]

Graves, J.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

Gregorini, L.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
[Crossref] [PubMed]

Gressard, A.

P. Lantelme, C. Mestre, M. Lievre, A. Gressard, and H. Milon, “Heart Rate: An Important Confounder of Pulse Wave Velocity Assessment,” Hypertension 39(6), 1083–1087 (2002).
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Gribbin, B.

B. Gribbin, A. Steptoe, and P. Sleight, “Pulse Wave Velocity as a Measure of Blood Pressure Change,” Psychophysiology 13(1), 86–90 (1976).
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Grüllenberger, R.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
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Guo, R.

A. C. Pearson, R. Guo, D. A. Orsinelli, P. F. Binkley, and T. J. Pasierski, “Transesophageal echocardiographic assessment of the effects of age, gender, and hypertension on thoracic aortic wall size, thickness, and stiffness,” Am. Heart J. 128(2), 344–351 (1994).
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Gustafsson, D.

T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
[Crossref] [PubMed]

Habenbacher, W.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
[Crossref] [PubMed]

Hacker, A.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
[Crossref] [PubMed]

Hall, J. E.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

Hara, A.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

Hasegawa, M.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Hashimoto, H.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Hashimoto, J.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

Havlik, R.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Hayashi, T.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Heller, A.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
[Crossref] [PubMed]

Hill, M. N.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

Hinohara, S.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
[Crossref] [PubMed]

Hirose, K.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
[Crossref] [PubMed]

Hori, S.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
[Crossref] [PubMed]

Horovitz, I.

Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
[Crossref] [PubMed]

Hoshi, H.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

I’yanov, S. S. U.

S. S. U. I’yanov, D. A. Zimnyakov, and V. V. Tuchin, “Fundamentals and applications of dynamic speckles induced by focused laser beam scattering,” Opt. Eng. 33(10), 3189–3210 (1994).
[Crossref]

Ichikawa, S.

W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi, and T. Togawa, “Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration,” Med. Biol. Eng. Comput. 38(5), 569–574 (2000).
[Crossref] [PubMed]

Imai, Y.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

Imholz, B. P.

B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
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Inoue, R.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

Irving, T. C.

J. P. Konhilas, T. C. Irving, and P. P. de Tombe, “Frank-Starling law of the heart and the cellular mechanisms of length-dependent activation,” Pflugers Arch. 445(3), 305–310 (2002).
[Crossref] [PubMed]

Ishikawa, E.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Jones, D. W.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

Kamshilin, A. A.

Kattai, R.

K. Meigas, R. Kattai, and J. Lass, “Continuous blood pressure monitoring using pulse wave delay,” in Proceedings of IEEE Conference on Engineering in medicine and biology society (IEEE, 2001), pp. 3171–3174.

Kikuya, M.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

Kobayashi, T.

W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi, and T. Togawa, “Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration,” Med. Biol. Eng. Comput. 38(5), 569–574 (2000).
[Crossref] [PubMed]

Koji, Y.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
[Crossref] [PubMed]

Konhilas, J. P.

J. P. Konhilas, T. C. Irving, and P. P. de Tombe, “Frank-Starling law of the heart and the cellular mechanisms of length-dependent activation,” Pflugers Arch. 445(3), 305–310 (2002).
[Crossref] [PubMed]

Koren, M. J.

G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
[Crossref] [PubMed]

Kozakai, M.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Kritchevsky, S.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Kupelian, V.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Kurtz, T.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
[Crossref] [PubMed]

Lakatta, E. G.

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
[Crossref] [PubMed]

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Länne, T.

T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
[Crossref] [PubMed]

Lantelme, P.

P. Lantelme, C. Mestre, M. Lievre, A. Gressard, and H. Milon, “Heart Rate: An Important Confounder of Pulse Wave Velocity Assessment,” Hypertension 39(6), 1083–1087 (2002).
[Crossref] [PubMed]

Lass, J.

K. Meigas, R. Kattai, and J. Lass, “Continuous blood pressure monitoring using pulse wave delay,” in Proceedings of IEEE Conference on Engineering in medicine and biology society (IEEE, 2001), pp. 3171–3174.

Laurent, P.

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

Lehmann, E. D.

E. D. Lehmann, “Clinical value of aortic pulse-wave velocity measurement,” Lancet 354(9178), 528–529 (1999).
[Crossref] [PubMed]

Leveque, J. L.

P. G. Agache, C. Monneur, J. L. Leveque, and J. De Rigal, “Mechanical properties and Young’s modulus of human skin in vivo,” Arch. Dermatol. Res. 269(3), 221–232 (1980).
[Crossref] [PubMed]

Levy, B. I.

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

Lievre, M.

P. Lantelme, C. Mestre, M. Lievre, A. Gressard, and H. Milon, “Heart Rate: An Important Confounder of Pulse Wave Velocity Assessment,” Hypertension 39(6), 1083–1087 (2002).
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J. Blacher, R. Asmar, S. Djane, G. M. London, and M. E. Safar, “Aortic Pulse Wave Velocity as a Marker of Cardiovascular Risk in Hypertensive Patients,” Hypertension 33(5), 1111–1117 (1999).
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Makarenko, A. A.

Mancia, G.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
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Margalit, I.

Marte, W.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
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G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
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Mestre, C.

P. Lantelme, C. Mestre, M. Lievre, A. Gressard, and H. Milon, “Heart Rate: An Important Confounder of Pulse Wave Velocity Assessment,” Hypertension 39(6), 1083–1087 (2002).
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Metoki, H.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
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Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
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Z. Zalevsky, Y. Beiderman, I. Margalit, S. Gingold, M. Teicher, V. Mico, and J. Garcia, “Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern,” Opt. Express 17(24), 21566–21580 (2009).
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P. Lantelme, C. Mestre, M. Lievre, A. Gressard, and H. Milon, “Heart Rate: An Important Confounder of Pulse Wave Velocity Assessment,” Hypertension 39(6), 1083–1087 (2002).
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Miridonov, S.

Monneur, C.

P. G. Agache, C. Monneur, J. L. Leveque, and J. De Rigal, “Mechanical properties and Young’s modulus of human skin in vivo,” Arch. Dermatol. Res. 269(3), 221–232 (1980).
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S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
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S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
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K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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Newman, A.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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Nippolainen, E.

Noury, N.

L. Peter, N. Noury, and M. Cerny, “A review of methods for non-invasive and continuous blood pressure monitoring: Pulse transit time method is promising?” IRBM 35(5), 271–282 (2014).
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M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
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Ohkubo, T.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
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Okamura, T.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
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A. C. Pearson, R. Guo, D. A. Orsinelli, P. F. Binkley, and T. J. Pasierski, “Transesophageal echocardiographic assessment of the effects of age, gender, and hypertension on thoracic aortic wall size, thickness, and stiffness,” Am. Heart J. 128(2), 344–351 (1994).
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S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
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Pahor, M.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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Pannier, B.

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
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Parati, G.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
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A. C. Pearson, R. Guo, D. A. Orsinelli, P. F. Binkley, and T. J. Pasierski, “Transesophageal echocardiographic assessment of the effects of age, gender, and hypertension on thoracic aortic wall size, thickness, and stiffness,” Am. Heart J. 128(2), 344–351 (1994).
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A. C. Pearson, R. Guo, D. A. Orsinelli, P. F. Binkley, and T. J. Pasierski, “Transesophageal echocardiographic assessment of the effects of age, gender, and hypertension on thoracic aortic wall size, thickness, and stiffness,” Am. Heart J. 128(2), 344–351 (1994).
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Pereira, T.

T. Pereira, C. Correia, and J. Cardoso, “Novel Methods for Pulse Wave Velocity Measurement,” J. Med. Biol. Eng. 35(5), 555–565 (2015).
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Peter, L.

L. Peter, N. Noury, and M. Cerny, “A review of methods for non-invasive and continuous blood pressure monitoring: Pulse transit time method is promising?” IRBM 35(5), 271–282 (2014).
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T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
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Pomidossi, G.

G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
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Rietzschel, E. R.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
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Roccella, E. J.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
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Roman, M. J.

G. de Simone, M. J. Roman, M. J. Koren, G. A. Mensah, A. Ganau, and R. B. Devereux, “Stroke Volume/Pulse Pressure Ratio and Cardiovascular Risk in Arterial Hypertension,” Hypertension 33(3), 800–805 (1999).
[Crossref] [PubMed]

Saarenheimo, R.

Safar, M. E.

J. Blacher, R. Asmar, S. Djane, G. M. London, and M. E. Safar, “Aortic Pulse Wave Velocity as a Marker of Cardiovascular Risk in Hypertensive Patients,” Hypertension 33(5), 1111–1117 (1999).
[Crossref] [PubMed]

Satoh, H.

M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
[Crossref] [PubMed]

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S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
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Segers, P.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
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B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
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Sheps, S. G.

T. G. Pickering, J. E. Hall, L. J. Appel, B. E. Falkner, J. Graves, M. N. Hill, D. W. Jones, T. Kurtz, S. G. Sheps, and E. J. Roccella, “Recommendations for blood pressure measurement in humans and experimental animals: Part 1: blood pressure measurement in humans: a statement for professionals from the Subcommittee of Professional and Public Education of the American Heart Association Council on High Blood Pressure Research,” Hypertension 45(1), 142–161 (2005).
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Shetty, V.

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
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Simonsick, E. M.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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Skrabal, F.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
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Sleight, P.

B. Gribbin, A. Steptoe, and P. Sleight, “Pulse Wave Velocity as a Measure of Blood Pressure Change,” Psychophysiology 13(1), 86–90 (1976).
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T. Länne, B. Sonesson, D. Bergqvist, H. Bengtsson, and D. Gustafsson, “Diameter and Compliance in the Male Human Abdominal Aorta: Influence of Age and Aortic Aneurysm,” Eur. J. Vasc. Surg. 6(2), 178–184 (1992).
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Spurgeon, H.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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Spurgeon, H. P.

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
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Steptoe, A.

B. Gribbin, A. Steptoe, and P. Sleight, “Pulse Wave Velocity as a Measure of Blood Pressure Change,” Psychophysiology 13(1), 86–90 (1976).
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Sugai, J.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Sutton-Tyrrell, K.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi, and T. Togawa, “Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration,” Med. Biol. Eng. Comput. 38(5), 569–574 (2000).
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Target, R.

R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
[Crossref] [PubMed]

Teicher, M.

Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
[Crossref] [PubMed]

Z. Zalevsky, Y. Beiderman, I. Margalit, S. Gingold, M. Teicher, V. Mico, and J. Garcia, “Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern,” Opt. Express 17(24), 21566–21580 (2009).
[Crossref] [PubMed]

Teplov, V.

Togawa, T.

W. Chen, T. Kobayashi, S. Ichikawa, Y. Takeuchi, and T. Togawa, “Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration,” Med. Biol. Eng. Comput. 38(5), 569–574 (2000).
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H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
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R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
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M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
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V. V. Tuchin, “Coherent optical techniques for the analysis of tissue structure and dynamics,” J. Biomed. Opt. 4(1), 106–124 (1999).
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S. S. U. I’yanov, D. A. Zimnyakov, and V. V. Tuchin, “Fundamentals and applications of dynamic speckles induced by focused laser beam scattering,” Opt. Eng. 33(10), 3189–3210 (1994).
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S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

van der Meiracker, A. H.

B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
[Crossref] [PubMed]

Venkitachalam, L.

K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
[Crossref] [PubMed]

Verdonck, P. R.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
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Vermeersch, S. J.

S. J. Vermeersch, E. R. Rietzschel, M. L. De Buyzere, D. De Bacquer, G. De Backer, L. M. Van Bortel, T. C. Gillebert, P. R. Verdonck, and P. Segers, “Age and gender related patterns in carotid-femoral PWV and carotid and femoral stiffness in a large healthy, middle-aged population,” J. Hypertens. 26(7), 1411–1419 (2008).
[Crossref] [PubMed]

Wach, P.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
[Crossref] [PubMed]

Wagner, Ch.

J. Fortin, W. Marte, R. Grüllenberger, A. Hacker, W. Habenbacher, A. Heller, Ch. Wagner, P. Wach, and F. Skrabal, “Continuous non-invasive blood pressure monitoring using concentrically interlocking control loops,” Comput. Biol. Med. 36(9), 941–957 (2006).
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Wesseling, K. H.

B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
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Wieling, W.

B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
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Wright, J. G.

S. S. Najjar, A. Scuteri, V. Shetty, J. G. Wright, D. C. Muller, J. L. Fleg, H. P. Spurgeon, L. Ferrucci, and E. G. Lakatta, “Pulse Wave Velocity Is an Independent Predictor of the Longitudinal Increase in Systolic Blood Pressure and of Incident Hypertension in the Baltimore Longitudinal Study of Aging,” J. Am. Coll. Cardiol. 51(14), 1377–1383 (2008).
[Crossref] [PubMed]

Yamagishi, N.

S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
[PubMed]

Yamamoto, Y.

H. Tomiyama, A. Yamashina, T. Arai, K. Hirose, Y. Koji, T. Chikamori, S. Hori, Y. Yamamoto, N. Doba, and S. Hinohara, “Influences of age and gender on results of noninvasive brachial-ankle pulse wave velocity measurement--a survey of 12517 subjects,” Atherosclerosis 166(2), 303–309 (2003).
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Yamashina, A.

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Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
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Z. Zalevsky, Y. Beiderman, I. Margalit, S. Gingold, M. Teicher, V. Mico, and J. Garcia, “Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern,” Opt. Express 17(24), 21566–21580 (2009).
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G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
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B. P. Imholz, J. J. Settels, A. H. van der Meiracker, K. H. Wesseling, and W. Wieling, “Non-invasive continuous finger blood pressure measurement during orthostatic stress compared to intra-arterial pressure,” Cardiovasc. Res. 24(3), 214–221 (1990).
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K. Sutton-Tyrrell, S. S. Najjar, R. M. Boudreau, L. Venkitachalam, V. Kupelian, E. M. Simonsick, R. Havlik, E. G. Lakatta, H. Spurgeon, S. Kritchevsky, M. Pahor, D. Bauer, A. Newman, and Health ABC Study, “Elevated aortic pulse wave velocity, a marker of arterial stiffness, predicts cardiovascular events in well-functioning older adults,” Circulation 111(25), 3384–3390 (2005).
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S. Yoshimura, J. Sugai, H. Hashimoto, T. Okamura, N. Yamagishi, M. Hasegawa, T. Hayashi, F. Otsuka, E. Ishikawa, H. Yamashita, and M. Kozakai, “An estimation of arteriosclerosis by the measurement of pulse wave velocity and an analysis of the clinical effect of therapeutic agents on arteriosclerosis,” Cor Vasa 10(3), 173–182 (1968).
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M. Kikuya, T. Ohkubo, H. Metoki, K. Asayama, A. Hara, T. Obara, R. Inoue, H. Hoshi, J. Hashimoto, K. Totsune, H. Satoh, and Y. Imai, “Day-by-Day Variability of Blood Pressure and Heart Rate at Home as a Novel Predictor of Prognosis: the Ohasama Study,” Hypertension 52(6), 1045–1050 (2008).
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R. Asmar, A. Benetos, J. Topouchian, P. Laurent, B. Pannier, A. M. Brisac, R. Target, and B. I. Levy, “Assesment of Arterial Distensibility by Automatic Pulse Wave Velocity Measurement,” Hypertension 26, 485–490 (1995).
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L. Peter, N. Noury, and M. Cerny, “A review of methods for non-invasive and continuous blood pressure monitoring: Pulse transit time method is promising?” IRBM 35(5), 271–282 (2014).
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Y. Beiderman, I. Horovitz, N. Burshtein, M. Teicher, J. Garcia, V. Mico, and Z. Zalevsky, “Remote estimation of blood pulse pressure via temporal tracking of reflected secondary speckles pattern,” J. Biomed. Opt. 15(6), 061707 (2010).
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T. Pereira, C. Correia, and J. Cardoso, “Novel Methods for Pulse Wave Velocity Measurement,” J. Med. Biol. Eng. 35(5), 555–565 (2015).
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G. Mancia, G. Bertinieri, G. Grassi, G. Parati, G. Pomidossi, A. Ferrari, L. Gregorini, and A. Zanchetti, “Effects of blood-pressure measurement by the doctor on patient’s blood pressure and heart rate,” Lancet 332(8352), 695–698 (1983).
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S. S. U. I’yanov, D. A. Zimnyakov, and V. V. Tuchin, “Fundamentals and applications of dynamic speckles induced by focused laser beam scattering,” Opt. Eng. 33(10), 3189–3210 (1994).
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